Down-regulation of Ras-related Protein Rab 5C-dependent Endocytosis and Glycolysis in Cisplatin-resistant Ovarian Cancer Cell Lines

Lixu Jin,Yi Huo,Zhiguo Zheng,Xiaoyong Jiang,Haiyun Deng,Yuling Chen,Qingquan Lian,Renshan Ge,Haiteng Deng

doi:10.1074/mcp.m113.033217

Abstract

Drug resistance poses a major challenge to ovarian cancer treatment. Understanding mechanisms of drug resistance is important for finding new therapeutic targets. In the present work, a cisplatin-resistant ovarian cancer cell line A2780-DR was established with a resistance index of 6.64. The cellular accumulation of cisplatin was significantly reduced in A2780-DR cells as compared with A2780 cells consistent with the general character of drug resistance. Quantitative proteomic analysis identified 340 differentially expressed proteins between A2780 and A2780-DR cells, which involve in diverse cellular processes, including metabolic process, cellular component biogenesis, cellular processes, and stress responses. Expression levels of Ras-related proteins Rab 5C and Rab 11B in A2780-DR cells were lower than those in A2780 cells as confirmed by real-time quantitative PCR and Western blotting. The short hairpin (sh)RNA-mediated knockdown of Rab 5C in A2780 cells resulted in markedly increased resistance to cisplatin whereas overexpression of Rab 5C in A2780-DR cells increases sensitivity to cisplatin, demonstrating that Rab 5C-dependent endocytosis plays an important role in cisplatin resistance. Our results also showed that expressions of glycolytic enzymes pyruvate kinase, glucose-6-phosphate isomerase, fructose-bisphosphate aldolase, lactate dehydrogenase, and phosphoglycerate kinase 1 were down-regulated in drug resistant cells, indicating drug resistance in ovarian cancer is directly associated with a decrease in glycolysis. Furthermore, it was found that glutathione reductase were up-regulated in A2780-DR, whereas vimentin, HSP90, and Annexin A1 and A2 were down-regulated. Taken together, our results suggest that drug resistance in ovarian cancer cell line A2780 is caused by multifactorial traits, including the down-regulation of Rab 5C-dependent endocytosis of cisplatin, glycolytic enzymes, and vimentin, and up-regulation of antioxidant proteins, suggesting Rab 5C is a potential target for treatment of drug-resistant ovarian cancer. This constitutes a further step toward a comprehensive understanding of drug resistance in ovarian cancer.

Highlights

From the ‡School of Life Sciences, Tsinghua University, Beijing, China; §The Second Affiliated Hospital of Wenzhou Medical University, Wenzhou, China; ¶Zhejiang Tumor Hospital, Hangzhou, China
Characterization of the Drug-resistant A2780 Cell Line—The drug-resistant cell line A2780-DR was established by the stepwise selection of A2780 cells cultured in growth media
Quantitative proteomic analysis in this study shows that Ras-related proteins Rab 5C and Rab 11B are down-regulated in A2780-DR cells as confirmed by Western blotting and Quantitative PCR (qPCR)

Summary

Introduction

From the ‡School of Life Sciences, Tsinghua University, Beijing, China; §The Second Affiliated Hospital of Wenzhou Medical University, Wenzhou, China; ¶Zhejiang Tumor Hospital, Hangzhou, China. Tion of antioxidant proteins, suggesting Rab 5C is a potential target for treatment of drug-resistant ovarian cancer. In order to increase survival rates from ovarian cancer and enhance patients’ quality of life, new therapeutic targets are urgently required, necessitating a deeper understanding of molecular mechanisms of drug resistance. Earlier studies have found that multiple factors are linked to drug resistance in human ovarian cancer including reduced intracellular drug accumulation, intracellular cisplatin inactivation, and increased DNA repair [4]. Reduced cellular drug accumulation is mediated by the copper transporter-1 responsible for the influx of cisplatin [5,6,7,8,9] and MDR1, which encodes an integral membrane protein named P-glycoprotein for the active efflux of platinum drugs. DNA-PK phosphorylates RAC-alpha serine/threonine-protein kinase (AKT) and inhibits cisplatin-mediated apoptosis [28]; and silencing of HDAC4 increases acetyl-STAT1 levels to prevent platinum-induced STAT1 activation and restore cisplatin sensitivity [29]

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Discussion

Conclusion